TY  - BOOK
AU  - DeMers,Michael N.
TI  - Fundamentals of geographic information systems
SN  - 9780470129067 ( alk. paper)
U1  - 910.285 22
PY  - 2009///
CY  - Hoboken, NJ
PB  - Wiley
KW  - Geographic information systems
KW  - Textbooks
N1  - CONTENTS;
Chapter 0 Spatial leaner's permit 1
Spatial technology 2
Applying spatial terms 5
Spatial cognition 8
Spatial quantities 10
Spherical earth 11
Concluding remarks 13
Terms 14
Practice exercises 14
References 16


UNIT 1 INTRODUCTION 


Chapter 1 Introduction to Digital Geography 

Learning Objectives 

Geographic Information Systems Defined 

A Brief History of Geographic Information Systems 

GIS as a Growth Industry 

Sample Application Areas of GIS
The study of GIS 29
Terms 31
Review questions 31
references 16


UNIT 2 DIGITAL GEOGRAPHIC DATA AND MAPS


Chapter 2 Basic Geographic Concepts 
Learning Objectives 
Developing Spatial Awareness 
Spatial Measurement Levels 
Spatial Location and Reference 
Spatial Patterns 
Geographic Data Collection 
Populations and Sampling Schemes 
Making Inferences from Samples 
terms
review questions 56
References 57


Chapter 3 Map Basics 
Learning Objectives 
Abstract Nature of Maps 
A Paradigm Shift in Cartography 
Map Scale 
More Map Characteristics 
Map Projections 
Grid Systems for Mapping 
Map Symbolism 
Map Abstraction and Cartographic Databases 
Terms 78
Review questions 78
References 79


Chapter 4 GIS Computer Structure Basics 
Learning Objectives 
A Quick Review of the Map as an Abstraction of Space 
Some Basic Computer File Structures 
Simple Lists 
Ordered Sequential Files 
Indexed Files 
Database Management Structures 
Hierarchical Data Structures 
Network Systems 
Relational Database Management Systems 
Some Basic Computer Terminology 
Terms 96
Review questions 97
References 97


Chapter 5 GIS Data Models 
Learning Objectives 
Graphic Representation of Entities and Attributes 
GIS System Data Models 
Raster Models 
Raster Surface Models 
Compact Storing of Raster Data 
Commercial Raster Compaction Products 
Vector Models
An Object-Oriented Data Model 
Compacting Vector Data Models 
A Vector Model to Represent Surfaces 
Systems Models 
Terms 
review questions
references 124

UNIT 3 INPUT, STORAGE, AND EDITING 

Chapter 6 GIS Input 
Learning Objectives 
Primary Data 
Input Devices 
Reference Frameworks and Transformations 
Map Preparation and the Digitizing Process 
What to Input 
How Much to Input 
Methods of Vector Input 
Methods of Raster Input 
Remote Sensing Data Input 
GPS Data Input 
Secondary Data 
Metadata and Metadata Standards 
terms 175
review questions
references


Chapter 7 Data Storage and Editing 
Learning Objectives 
GIS Database Storage 
Basic Error Types
Consequences of Errors 
Error Detection and Editing 
Entity Errors: Vector 
Attribute Errors: Raster and Vector 
Dealing with Projection Changes 
Joining Adjacent Maps: Edge Matching 
Conflation 
Templating 
terms
review questions
references 179


UNIT 4 SPATIAL ANALYSIS 177

Chapter 8 Query and Description 179
Learning Objectives 180
Model Flowcharting 180
GIS Data Query 181
Locating and Identifying Spatial Objects 184
Defining Spatial Characteristics 185
Point Attributes 186
Line Attributes 187
Area Attributes 189
Working with Higher-Level Objects 192
Higher-Level Point Objects 192
Higher-Level Line Objects 195
Higher-Level Area Objects 198
terms
review questions
references 200


Chapter 9 Measurement 202

Learning Objectives 202

Measuring Length 203

Measuring Polygons 205

Measuring Polygon Lengths 205

Measuring Perimeters of Polygons 206

Calculating Areas of Polygonal Features 207

Measuring Shape 208

Measuring Sinuosity 209

Measuring Polygon Shape 209

Measuring Distance 213

Euclidean Distance 213

Functional Distance 215

Terms 223

Review Questions 224

References 225


Chapter 10 Classification 227

Learning Objectives 228

Classification Principles 228

Elements of Reclassification 230

Neighborhood Functions 231

Roving Windows: Filters 232

Static Neighborhood Functions 235

Buffers 239

Terms 244

Review Questions 244

References 245


Chapter 11 Statistical Surfaces 247

Learning Objectives 248

What are Surfaces? 249

Surface Mapping 250

Nontopographical Surfaces 252

Sampling the Statistical Surface 253

The DEM 254

Interpolation 255

Linear Interpolation 256

Methods of Nonlinear Interpolation 257

Problems of Interpolation 262

Terms 266

Review Questions 267

References 268


Chapter 12 Terrain Analysis 269

Learning Objectives 270

Terrain Reclassification 270

Elevation Zones 270

Slope Analysis 272

Aspect Analysis 273

Shape or Form 275

Viewshed Analysis 279

Soundshed Analysis 282

Cut and Fill 283

Terms 284

Review Questions 284

References 286


Chapter 13 Spatial Arrangement 288

Learning Objectives 289

Point, Area, and Line Arrangements 290

Point Patterns 290

Nearest Neighbor Analysis 291

Thiessen Polygons 293

Area Patterns 295

Distance and Adjacency 296

Other Polygonal Arrangement Measures 297

Linear Patterns 297

Line Densities 298

Nearest Neighbors and Line Intercepts 298

Direction and Circular Statistics 300

Connectivity of Linear Objects 303

Gravity Model 306

Routing and Allocation 307

Terms 309

Review Questions 310

References 311


Chapter 14 Map Overlay 313

Learning Objectives 313

The Cartographic Overlay 314

Point-In-Polygon and Line-In-Polygon Overlay 316

Polygon Overlays 318

Why Perform an Overlay? 318

Types of Map Overlay 319

Types of Vector Overlays 323

Graphical Overlay 324

Topological Vector Overlay 326

A Note about Error in Overlay 326

Dasymetric Mapping 328

Terms 330

Review Questions 331

References 331


Chapter 15 Cartographic Modeling 333

Learning Objectives 334

Model Components 334

The Cartographic Model 335

Types of Cartographic Models 337

Inductive and Deductive Modeling 339

Factor Selection 339

Model Flowcharting 340

Working Through the Model 342

Conflict Resolution 347

Sample Cartographic Models 348

Model Implementation 351

Model Verification 352

Terms 356

Review Questions 356

References 357


UNIT 5 GIS OUTPUT AND DESIGN 359


Chapter 16 Cartography and Visualization 361

Learning Objectives 361

Output: The Display of Analysis 362

Cartographic Output 363

Thematic Maps and Cartograms 364

Multivariate Display 369

Dynamic and Interactive Display 371

Web Mapping and Visualization 372

Virtual and Immersion Environments 374

Mapping the Temporal Dimension 374

Noncartographic Output 375

Tables and Charts 376

Design Considerations 377

Terms 380

Review Questions 380

References 381


Chapter 17 GIS Design 383

Learning Objectives 384

Application Design 385

Some General Systems Characteristics 387

Project Definition 388

Analytical Model Design 389

Components and Procedures 389

GIS Tools for Solving Problems 390

Selecting the Software 390

Scientific Models and GIS 390

Database Design 391

Modeling Tools 391

Establishing the Effective Spatial Domain of the Model 392

Study Area 393

Scale, Resolution, and Level of Detail 393

Classification 394

Coordinate System and Projection 394

Conceptual, Logical, and Physical Models 395

Institutional/System Design 395

GIS Information Products 396

How Information Products Drive the GIS 396

Organizing the Local Views 397

Avoiding Design Creep 398

View Integration 399

System Implementation 399

The Institutional Setting for GIS Operations 400

The System and the Outside World 400

Internal Players 401

External Players 402
terms 403
review questions 404

Appendix A software and data sources 405
Appendix B using the world wide web to find data 411 and GIS Examples
Glossary 435
index
Photo credits


; Includes bibliographical references and index
ER  -